A clinical procedure isolation device and methods of use thereof

Abstract

The application belongs to the technical field of clinical technology, and discloses a clinical operation isolation device, which comprises a support frame, a support assembly is fixedly installed at the top of the support frame, and a bed plate assembly is movably installed at the top of the support assembly. The application also provides a use method of the clinical operation isolation device. The first bed plate and the second bed plate are pushed out by the first transmission rod driven by the double-shaft motor. The bottom of the first bed plate is in contact with the first baffle at the top of the first protective plate and the top of the second baffle during the movement of the first bed plate, so that the first bed plate and the second bed plate are supported by the second baffle and the first baffle. The first bed plate rotates at the hinge and is in contact with the inclined edge of the second baffle, so that the first bed plate is in an inclined state, and the sponge pad is also in an inclined state. At this time, the patient can be moved to the top of the sponge pad, so that the patient after the operation is conveniently moved, and the labor of the medical staff is reduced.

Description

Technical Field

[0001] This invention belongs to the field of clinical technology, specifically a clinical surgical isolation device and its usage method. Background Technology

[0002] Clinical practice refers to direct contact with patients and actual observation of them. Disciplines such as internal medicine, surgery, obstetrics and gynecology, and pediatrics belong to clinical medicine. Clinical departments are the core of a hospital, directly responsible for the admission, diagnosis, and treatment of patients. Clinical staff include doctors and nurses who directly participate in the treatment and care of patients. Medical technology departments, formerly known as "non-clinical" departments, also have doctors and nurses, but they do not directly participate in the treatment and care of patients; they only provide services directly for clinical diagnosis and treatment.

[0003] Chinese invention patent CN114191194B discloses a nursing bed and method for leg and waist care in patients with lower body paralysis. It includes at least a bed board; a tailboard connected to a fixed plate by a spring; a cotton board located within a cavity; a driving component including a lead screw, the bottom of which penetrates the fixed plate and is connected to a motor, which is mounted on the bottom surface of the fixed plate; a lead screw nut connected to the surface of the lead screw; push rods symmetrically mounted on the sides of the lead screw nut; guide rods connected to the ends of the push rods; a mounting plate connected to the top of the lead screw; a limit rod mounted on one side of the mounting plate; and guide plates connected by connecting arms with protruding rods on their surfaces. The push rods drive the cotton board upwards, providing tilted support for the legs, facilitating the application of medication. The guide rods compress the guide plates, leveling the tailboard, allowing medication to be placed on its horizontal surface, thus improving the practical function of the current nursing bed tailboard.

[0004] While the existing technology can support the patient's legs to facilitate the application of medication, the patient needs to be transferred away from the operating table after surgery. Currently, patient transfers are usually done by moving the patient from the operating table to the bed. This process requires multiple medical staff to work together to complete the transfer. Therefore, a clinical surgical isolation device and its usage method are proposed. Summary of the Invention

[0005] To address the problems mentioned in the background art, the present invention provides a clinical surgical isolation device and its usage method, which solves the problem that existing patient transfer procedures usually involve transferring patients by bed, but the transfer process requires moving the patient from the operating table to the bed, and currently, the patient transfer process usually requires the cooperation of multiple medical staff to complete the transfer.

[0006] To achieve the above objectives, the present invention provides the following technical solution: a clinical surgical isolation device, comprising a support frame, a support component fixedly installed on the top of the support frame, a bed board component movably installed on the top of the support component, a fixing component fixedly installed on one side of the support component, a guide component movably installed inside the fixing component, a second protective plate fixedly installed on the other side of the support component, a snap-fit ​​component movably installed on one side of the guide component and the second protective plate respectively, a blocking component hinged to one side of one of the snap-fit ​​components, and a drive component fixedly installed at the bottom of the bed board component;

[0007] The support assembly includes a support plate fixedly installed on the top of the support frame. Two first guide rails are provided inside the support plate. Two racks are fixedly installed on the front and rear sides of the two first guide rails respectively. Second guide rails are fixedly installed on the front and rear sides of the bottom of the two first guide rails respectively.

[0008] Preferably, the bed board assembly includes a second bed board movably mounted on the top of the support plate, a first bed board hinged to one side of the second bed board, a sponge pad fixedly mounted on the top of the first bed board and the second bed board, and the combined side length of the first bed board and the second bed board is consistent with the side length of the inner wall of the support plate.

[0009] Preferably, the drive assembly includes a dual-axis motor fixedly installed on the bottom of the second bed board. A first transmission rod is fixedly installed on the output end of the dual-axis motor. Four transmission gears that mesh with the four racks are fixedly installed on both sides of the first transmission rod. A second transmission rod is movably installed at one end of the bottom of the second bed board. Four sliding blocks are fixedly installed at the front and rear ends of the second transmission rod, and the bottoms of the four sliding blocks are movably engaged with the outside of the four second guide rails.

[0010] Preferably, the guiding component includes a first protective plate movably mounted outside the fixing component. Two protective pads are fixedly mounted at the front and rear ends of one side of the first protective plate, and four third guide rails are fixedly mounted at the front and rear ends of one side of the first protective plate. The four third guide rails are perpendicular to the four second guide rails, and the specifications of the four third guide rails are the same as those of the four second guide rails.

[0011] Preferably, the fixing assembly includes a receiving plate fixedly installed on one side of the support plate, a support column fixedly installed on the top of the receiving plate, a snap-fit ​​plate hinged to the other side of the first protective plate, and a first spring fixedly installed on the side of the snap-fit ​​plate.

[0012] Preferably, the lower end of the first protective plate has a first rectangular hole, the middle part of the receiving plate has a second rectangular hole, the support column is perpendicular to the middle part of the second rectangular hole, the first rectangular hole passes through the support column and the second rectangular hole, the sum of the thicknesses of the first protective plate and the receiving plate is the same as the bottom thickness of the support plate in the support assembly, one end of the first spring is fixedly connected to one side of the snap-fit ​​plate, and the other side of the snap-fit ​​plate is fixedly connected to the other side of the first protective plate.

[0013] Preferably, the snap-fit ​​assembly includes a toothed plate movably installed inside the first protective plate, with second springs fixedly installed at the upper and lower ends of one side of the toothed plate, a connecting block movably snapped into the interior of the first protective plate on the other side of the toothed plate, and a push plate fixedly installed in the middle of the other side of the toothed plate. The snap-fit ​​assembly is movably installed on one side of the guide assembly and the second protective plate.

[0014] Preferably, both the toothed plate and the connecting block are provided with interlocking teeth, and the connecting block slides downward to one side of the toothed plate for fixing.

[0015] Preferably, the blocking assembly includes a second baffle hinged to one side of the connecting block, a first baffle movably sleeved on one side of the second baffle, a connecting plate fixedly installed on one side of the first baffle, a stabilizing column fixedly installed on the top of the connecting block at the right end, a fixing shaft fixedly installed in the middle of the stabilizing column, a snap-fit ​​block movably sleeved on the outside of the fixing shaft, a circular hole in the middle of the connecting plate, the inner diameter of the circular hole being larger than the outer diameter of the stabilizing column, the outer diameter of the snap-fit ​​block being smaller than the inner diameter of the circular hole, the contracted length of the first baffle and the second baffle being less than the height of the first protective plate, and the first baffle and the second baffle combined to form an arch shape.

[0016] The present invention also provides a method of using the above-mentioned clinical surgical isolation device, comprising the following steps:

[0017] S1. After the patient's surgery, they need to be transferred. By pulling one end of the first baffle upward, the connecting plate is separated from the outside of the stabilizing column and the snap-fit ​​block. One end of the first baffle retracts to the inside of the second baffle, thereby shortening the length of the first baffle and the second baffle. At this time, push the snap-fit ​​plate to compress the first spring. The upper end of the snap-fit ​​plate is separated from the bottom of the receiving plate. Pull the first protective plate upward, and the first rectangular hole moves upward. The bottom of the first protective plate is located at the top of the receiving plate. The first protective plate rotates around the support column as the central axis. The first protective plate is in a horizontal state, with one side in contact with one side of the support plate and maintaining a plane with the bottom of the inside of the support plate. At the same time, one side of each of the four third guide rails is in contact with one side of each of the four second guide rails.

[0018] S2. By pushing the toothed plate with the push plate, the two second springs are compressed and the connecting block is pulled upward. At the same time, one end of the second baffle is moved upward. Since the contracted length of the first baffle and the second baffle is less than the height of the first protective plate, the second baffle rotates at the hinge. One side of the connecting plate contacts the other side of the first protective plate. Since the combination of the first baffle and the second baffle is arched, the first baffle and the second baffle are located on the other side of the first protective plate.

[0019] S3. Start the dual-axis motor to drive the first transmission rod to rotate, which in turn drives the four transmission gears to rotate. Since the four transmission gears mesh with the bottom of the four racks respectively, and the dual-axis motor is fixedly connected to the bottom of the second bed board, the first bed board and the second bed board are pushed to one side by the guidance of the four racks. During the movement of the second bed board, the second transmission rod and the four sliding blocks are driven. The four sliding blocks slide outside the four second guide rails respectively. During the sliding process, the four sliding blocks disengage from the outside of the four second guide rails. Since the four third guide rails are the same shape and size as the four second guide rails and maintain a plane, the four sliding blocks are respectively engaged with the outside of the four third guide rails during the sliding process. The stability of the movement of the first bed board and the second bed board is improved by the first protective plate and the four third guide rails.

[0020] S4. Simultaneously, during the movement of the first bed board, the bottom of the first bed board contacts the top of the first baffle and the top of the second baffle on the top of the first protective plate, thereby supporting the first and second bed boards through the second baffle and the first baffle. At the same time, when the second bed board moves to the left end of the support plate, the bottom of the first bed board contacts the inclined side of the second baffle. The first bed board rotates at the hinge and contacts the inclined side of the second baffle, thus the first bed board is in an inclined state. At the same time, the sponge pad follows the first bed board in an inclined state. At this time, the patient can be moved to the top of the sponge pad, which facilitates the movement of the postoperative patient and reduces the labor of medical staff.

[0021] S5. When the patient moves to the top of the sponge pad, the dual-axis motor rotates in the opposite direction, thereby pulling the second bed board, the first bed board, the sponge pad, and the patient at the top to move in the opposite direction. The first bed board and the second bed board gradually become horizontal and move to the top of the support plate. The first bed board, the second bed board, and the patient are supported by the two first guide rails. At the same time, the second baffle and the first protective plate rotate upward. The first protective plate rotates around the support column as the central axis, so that the first protective plate is in a vertical state. At the same time, the bottom of the first protective plate passes through the second rectangular hole, and the first protective plate is supported by the contact between the top of the snap-fit ​​plate and the bottom of the receiving plate. The first protective plate is stabilized by the second rectangular hole.

[0022] S6. By pulling one end of the first baffle, the first baffle gradually separates from the inside of the second baffle, increasing the length of the first and second baffles. At the same time, the circular hole of the connecting plate passes through the snap-fit ​​block and the stabilizing column, and the snap-fit ​​block is rotated to fix the connecting plate and one end of the first baffle. The first and second baffles are pressed down so that their bottoms contact the patient's body, and the two connecting blocks are pushed respectively. Thus, the two connecting blocks are limited by the four second springs pushing the two toothed plates, thereby limiting the first and second baffles and preventing the patient from turning over.

[0023] Compared with the prior art, the beneficial effects of the present invention are as follows:

[0024] This invention uses a dual-axis motor to drive the first transmission rod to rotate, pushing out the first and second bed boards. During the movement of the first bed board, the bottom of the first bed board contacts the top of the first baffle and the top of the second baffle on the top of the first protective plate, thereby supporting the first and second bed boards through the second baffle and the first baffle. At the same time, when the second bed board moves to the left end of the support plate, the bottom of the first bed board contacts the inclined side of the second baffle. The first bed board rotates at the hinge and contacts the inclined side of the second baffle, thus tilting the first bed board. At the same time, the sponge pad follows the tilting of the first bed board, allowing the patient to be moved to the top of the sponge pad, which facilitates the movement of postoperative patients and reduces the labor of medical staff.

[0025] This invention involves pulling one end of the first baffle, causing it to gradually detach from the interior of the second baffle, thus gradually increasing the length of both the first and second baffles. Simultaneously, a circular hole in the connecting plate passes through the locking block and the stabilizing column. Rotating the locking block fixes one end of the connecting plate and the first baffle. Pressing down on the first and second baffles brings their bottoms into contact with the patient's body, and pushing the two connecting blocks, causes four second springs to push two toothed plates to limit the two connecting blocks, thereby limiting the first and second baffles and preventing the patient from turning over.

[0026] This invention involves moving the patient to the top of a sponge pad, causing a dual-axis motor to rotate in the opposite direction. This pulls the second bed board, the first bed board, the sponge pad, and the patient at the top in the opposite direction. The first and second bed boards gradually become horizontal and move to the top of a support plate. Two first guide rails support the first bed board, the second bed board, and the patient. Simultaneously, the second baffle and the first protective plate rotate upwards. The first protective plate rotates around the support column as its central axis, making it vertical. The bottom of the first protective plate has a second rectangular hole, and the top of the snap-fit ​​plate contacts the bottom of the receiving plate to support the first protective plate. The second rectangular hole stabilizes the first protective plate and protects the patient. Attached Figure Description

[0027] Figure 1 This is a schematic diagram of the overall appearance of the structure of the present invention;

[0028] Figure 2 This is a schematic diagram of the structural support assembly and bed board assembly of the present invention;

[0029] Figure 3 This is a schematic cross-sectional view of one side of the structure of the present invention;

[0030] Figure 4 The structure of this invention Figure 3 Enlarged view of point A in the middle;

[0031] Figure 5 This is a schematic diagram of the internal structure of the support component of the present invention;

[0032] Figure 6 This is a schematic diagram showing the cooperation between the bed board assembly and the drive assembly of the present invention;

[0033] Figure 7 This is a top sectional view of the structural support component of the present invention;

[0034] Figure 8 This is a schematic diagram of the engagement of the snap-fit ​​component and the blocking component of the present invention;

[0035] Figure 9 This is a schematic diagram of the assembly of the snap-fit ​​component and the fixing component of the present invention;

[0036] Figure 10 This is a schematic diagram of a partial forming of the structure of the present invention.

[0037] In the diagram: 1. Support frame; 2. Support assembly; 201. Support plate; 202. First guide rail; 203. Second guide rail; 204. Rack; 3. Fixing assembly; 301. Receiving plate; 302. Support column; 303. First spring; 304. Snap-fit ​​plate; 4. Guide assembly; 401. First protective plate; 402. Protective pad; 403. Third guide rail; 5. Bed board assembly; 501. First bed board; 502. Second bed board; 503. Sponge pad; 6. 601. Blocking assembly; 602. First baffle; 603. Second baffle; 604. Connecting plate; 605. Stabilizing column; 606. Fixed shaft; 607. Snap-fit ​​block; 708. Drive assembly; 701. Dual-axis motor; 702. First transmission rod; 703. Transmission gear; 704. Sliding block; 705. Second transmission rod; 808. Snap-fit ​​assembly; 801. Second spring; 802. Connecting block; 803. Push plate; 804. Toothed plate; 10. Second protective plate. Detailed Implementation

[0038] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0039] like Figures 1 to 10 As shown, the present invention provides a clinical surgical isolation device, including a support frame 1, a support component 2 fixedly installed on the top of the support frame 1, a bed board component 5 movably installed on the top of the support component 2, a fixing component 3 fixedly installed on one side of the support component 2, a guide component 4 movably installed inside the fixing component 3, a second protective plate 10 fixedly installed on the other side of the support component 2, a snap-fit ​​component 8 movably installed on one side of the guide component 4 and the second protective plate 10 respectively, a blocking component 6 hinged to one side of one snap-fit ​​component 8, and a drive component 7 fixedly installed at the bottom of the bed board component 5;

[0040] The support assembly 2 includes a support plate 201 fixedly installed on the top of the support frame 1. Two first guide rails 202 are provided inside the support plate 201. Two racks 204 are fixedly installed on the front and rear sides of the two first guide rails 202 respectively. Second guide rails 203 are fixedly installed on the front and rear sides of the bottom of the two first guide rails 202 respectively.

[0041] The bed board assembly 5 includes a second bed board 502 movably mounted on the top of the support plate 201. The first bed board 501 is hinged to one side of the second bed board 502. A sponge pad 503 is fixedly mounted on the top of the first bed board 501 and the second bed board 502. The combined side length of the first bed board 501 and the second bed board 502 is the same as the side length of the inner wall of the support plate 201.

[0042] The drive assembly 7 includes a dual-axis motor 701 fixedly installed at the bottom of the second bed plate 502. A first transmission rod 702 is fixedly installed at the output end of the dual-axis motor 701. Four transmission gears 703 that mesh with four racks 204 are fixedly installed on both sides of the first transmission rod. A second transmission rod 705 is movably installed at one end of the bottom of the second bed plate 502. Four sliding blocks 704 are fixedly installed at the front and rear ends of the second transmission rod 705 respectively. The bottoms of the four sliding blocks 704 are movably engaged with the outside of the four second guide rails 203 respectively.

[0043] After the patient's surgery, they need to be transferred and isolated. The dual-axis motor 701 is activated, driving the first transmission rod 702 to rotate, which in turn drives four transmission gears 703. Since the four transmission gears 703 mesh with the bottoms of four racks 204, and the dual-axis motor 701 is fixedly connected to the bottom of the second bed board 502, the four racks 204 guide the first bed board 501 and the second bed board 502 to one side. During the movement of the second bed board 502, the second transmission rod 705 and four sliding blocks 704 are driven. The four sliding blocks 704 slide on the outside of the four second guide rails 203, thus pushing out the first bed board 501, the second bed board 502, and the sponge pad 503. The bottom of the first bed board 501 contacts the top of the blocking assembly 6, and the first bed board 501 is tilted, making it easier for medical staff to move the patient to the top of the sponge pad 503, while also reducing labor.

[0044] like Figure 3 , Figure 8 , Figure 9 As shown, the guide assembly 4 includes a first protective plate 401 that is movably installed outside the fixed assembly 3. Two protective pads 402 are fixedly installed at the front and rear ends of one side of the first protective plate 401, and four third guide rails 403 are fixedly installed at the front and rear ends of one side of the first protective plate 401. The four third guide rails 403 are perpendicular to the four second guide rails 203, and the specifications of the four third guide rails 403 are the same as those of the four second guide rails 203.

[0045] The fixing component 3 includes a receiving plate 301 fixedly installed on one side of the support plate 201, a support column 302 fixedly installed on the top of the receiving plate 301, a snap-fit ​​plate 304 hinged to the other side of the first protective plate 401, and a first spring 303 fixedly installed on the side of the snap-fit ​​plate 304.

[0046] The lower end of the first protective plate 401 has a first rectangular hole, the middle part of the receiving plate 301 has a second rectangular hole, the support column 302 is perpendicular to the middle part of the second rectangular hole, the first rectangular hole passes through the support column 302 and the second rectangular hole, the sum of the thicknesses of the first protective plate 401 and the receiving plate 301 is the same as the bottom thickness of the support plate 201 in the support assembly 2, one end of the first spring 303 is fixedly connected to one side of the snap-fit ​​plate 304, and the other side of the snap-fit ​​plate 304 is fixedly connected to the other side of the first protective plate 401.

[0047] After the patient's surgery, they need to be transferred and isolated. At this time, by pushing the snap-fit ​​plate 304, the first spring 303 is compressed, and the upper end of the snap-fit ​​plate 304 is separated from the bottom of the support plate 301. The first protective plate 401 is pulled upward, and the first rectangular hole moves upward. The bottom of the first protective plate 401 is located at the top of the support plate 301. The first protective plate 401 rotates around the support column 302 as the central axis. The first protective plate 401 is in a horizontal state, with one side in contact with one side of the support plate 201 and maintaining a plane with the bottom of the support plate 201. At the same time, one side of each of the four third guide rails 403 is in contact with one side of each of the four second guide rails 203, so that the four third guide rails 403 and the four second guide rails 203 form a track to guide the four sliding blocks 704 and support the second bed board 502. This allows the first bed board 501 and the second bed board 502 to be pushed out, making it easier for the patient to move to the top of the sponge pad 503, and also improving the stability of the movement of the second bed board 502.

[0048] like Figure 2 , Figure 3 , Figure 4 , Figure 8 As shown, the snap-fit ​​assembly 8 includes a toothed plate 804 movably installed inside the first protective plate 401. A second spring 801 is fixedly installed at the upper and lower ends of one side of the toothed plate 804. A connecting block 802 is movably snapped into the interior of the first protective plate 401 on the other side of the toothed plate 804. A push plate 803 is fixedly installed in the middle of the other side of the toothed plate 804. The snap-fit ​​assembly 8 is movably installed on one side of the guide assembly 4 and the second protective plate 10.

[0049] Both the toothed plate 804 and the connecting block 802 are provided with interlocking teeth. The connecting block 802 slides downward to one side of the toothed plate 804 to fix the position of 802.

[0050] The blocking assembly 6 includes a second baffle 602 hinged to one side of the connecting block 802. A first baffle 601 is movably sleeved on one side of the second baffle 602. A connecting plate 603 is fixedly installed on one side of the first baffle 601. A stabilizing column 604 is fixedly installed on the top of the right end connecting block 802. A fixing shaft 605 is fixedly installed in the middle of the stabilizing column 604. A snap-fit ​​block 606 is movably sleeved on the outside of the fixing shaft 605. A circular hole is opened in the middle of the connecting plate 603. The inner diameter of the circular hole is larger than the outer diameter of the stabilizing column 604. The outer diameter of the snap-fit ​​block 606 is smaller than the inner diameter of the circular hole. The contracted length of the first baffle 601 and the second baffle 602 is less than the height of the first protective plate 401. The first baffle 601 and the second baffle 602 are combined to form an arch shape.

[0051] By pulling one end of the first baffle 601 upward, the connecting plate 603 disengages from the outside of the stabilizing column 604 and the snap-fit ​​block 606. One end of the first baffle 601 retracts to one end inside the second baffle 602, thus shortening the length of the first baffle 601 and the second baffle 602. The pushing plate 803 pushes the toothed plate 804 to compress the two second springs 801 and pull the connecting block 802 upward. At the same time, it causes one end of the second baffle 602 to move upward. Since the retracted length of the first baffle 601 and the second baffle 602 is less than the height of the first protective plate 401, the second baffle 602 rotates at the hinge. One side of the connecting plate 603 contacts the other side of the first protective plate 401. Since the combination of the first baffle 601 and the second baffle 602 forms an arch, the first baffle 601 and the second baffle 602 are located on the other side of the first protective plate 401, so that the first protective plate 401 and the support plate 2... 01 Keeping the bed horizontal, start the dual-axis motor 701 to push out the bed board assembly 5. During the movement of the first bed board 501, the bottom of the first bed board 501 contacts the top of the first baffle 601 and the top of the second baffle 602 on the top of the first protective plate 401, thereby supporting the first bed board 501 and the second bed board 502 through the second baffle 602 and the first baffle 601. At the same time, when the second bed board 502 moves to the left end of the support plate 201, the bottom of the first bed board 501 contacts the inclined side of the second baffle 602. The first bed board 501 rotates at the hinge and contacts the inclined side of the second baffle 602, thereby tilting the first bed board 501. At the same time, the sponge pad 503 follows the first bed board 501 and tilts. At this time, the patient can be moved to the top of the sponge pad 503, which facilitates the movement of the postoperative patient and reduces the labor of medical staff.

[0052] When the patient moves to the top of the bed board assembly 5, by pulling one end of the first baffle 601, the first baffle 601 gradually separates from the inside of the second baffle 602, so that the length of the first baffle 601 and the second baffle 602 gradually increases. At the same time, the circular hole of the connecting plate 603 passes through the locking block 606 and the stabilizing column 604, and the locking block 606 is rotated to fix the connecting plate 603 and one end of the first baffle 601. The first baffle 601 and the second baffle 602 are pressed down so that their bottoms contact the patient's body, and the two connecting blocks 802 are pushed respectively. Thus, the two connecting blocks 802 are limited by the four second springs 801 pushing the two toothed plates 804, thereby limiting the first baffle 601 and the second baffle 602. The first baffle 601 and the second baffle 602 can be used to prevent the patient from turning over.

[0053] The present invention also provides a method of using the above-mentioned clinical surgical isolation device, comprising the following steps:

[0054] S1. After the patient's surgery, they need to be transferred and isolated. By pulling one end of the first baffle 601 upward, the connecting plate 603 is separated from the outside of the stabilizing column 604 and the snap-fit ​​block 606. One end of the first baffle 601 retracts to one end inside the second baffle 602, thereby shortening the length of the first baffle 601 and the second baffle 602. At this time, the snap-fit ​​plate 304 is pushed to compress the first spring 303. The upper end of the snap-fit ​​plate 304 is separated from the bottom of the receiving plate 301. The first protective plate 401 is pulled upward, and the first rectangular hole moves upward. The bottom of the first protective plate 401 is located at the top of the receiving plate 301. The first protective plate 401 rotates around the support column 302 as the central axis. The first protective plate 401 is in a horizontal state, with one side in contact with one side of the support plate 201 and maintaining a plane with the bottom inside the support plate 201. At the same time, one side of each of the four third guide rails 403 is in contact with one side of each of the four second guide rails 203.

[0055] S2. The push plate 803 pushes the toothed plate 804 to compress the two second springs 801 and pull the connecting block 802 upward. At the same time, it drives one end of the second baffle 602 to move upward. Since the contracted length of the first baffle 601 and the second baffle 602 is less than the height of the first protective plate 401, the second baffle 602 rotates at the hinge. One side of the connecting plate 603 contacts the other side of the first protective plate 401. Since the combination of the first baffle 601 and the second baffle 602 forms an arch, the first baffle 601 and the second baffle 602 are located on the other side of the first protective plate 401.

[0056] S3. Start the dual-axis motor 701 to drive the first transmission rod 702 to rotate, which in turn drives the four transmission gears 703 to rotate. Since the four transmission gears 703 mesh with the bottom of the four racks 204 respectively, and the dual-axis motor 701 is fixedly connected to the bottom of the second bed plate 502, the first bed plate 501 and the second bed plate 502 are pushed to one side by the guidance of the four racks 204. During the movement of the second bed plate 502, the second transmission rod 705 and the four sliding blocks 704 are driven. The four sliding blocks 704 slide on the outside of the four second guide rails 203 respectively. During the sliding process, the four sliding blocks 704 disengage from the outside of the four second guide rails 203. Since the four third guide rails 403 are the same shape and size as the four second guide rails 203 and maintain a plane, the four sliding blocks 704 are respectively engaged with the outside of the four third guide rails 403 during the sliding process. The stability of the movement of the first bed plate 501 and the second bed plate 502 is improved by the first protective plate 401 and the four third guide rails 403.

[0057] S4. Simultaneously, during the movement of the first bed board 501, the bottom of the first bed board 501 contacts the top of the first baffle 601 and the top of the second baffle 602 on the top of the first protective plate 401, thereby supporting the first bed board 501 and the second bed board 502 through the second baffle 602 and the first baffle 601. At the same time, when the second bed board 502 moves to the left end of the support plate 201, the bottom of the first bed board 501 contacts the inclined side of the second baffle 602. The first bed board 501 rotates at the hinge and contacts the inclined side of the second baffle 602, thereby tilting the first bed board 501. At the same time, the sponge pad 503 follows the tilting state of the first bed board 501. At this time, the patient can be moved to the top of the sponge pad 503, which facilitates the movement of the postoperative patient and reduces the labor of medical staff.

[0058] S5. When the patient moves to the top of the sponge pad 503, the dual-axis motor 701 rotates in the opposite direction, thereby pulling the second bed board 502, the first bed board 501, the sponge pad 503 and the patient at the top to move in the opposite direction. The first bed board 501 and the second bed board 502 gradually become horizontal and move to the top of the support plate 201. The first bed board 501, the second bed board 502 and the patient are supported by the two first guide rails 202. At the same time, the second baffle 602 and the first protective plate 401 are rotated upward. The first protective plate 401 rotates around the support column 302 as the central axis, so that the first protective plate 401 is in a vertical state. At the same time, the bottom of the first protective plate 401 passes through the second rectangular hole, and the first protective plate 401 is supported by the contact between the top of the snap-fit ​​plate 304 and the bottom of the receiving plate 301. The first protective plate 401 is stabilized by the second rectangular hole.

[0059] S6. By pulling one end of the first baffle 601, the first baffle 601 gradually separates from the interior of the second baffle 602, so that the length of the first baffle 601 and the second baffle 602 gradually increases. At the same time, the circular hole of the connecting plate 603 passes through the snap-fit ​​block 606 and the stabilizing column 604, and the snap-fit ​​block 606 is rotated to fix the connecting plate 603 and one end of the first baffle 601. The first baffle 601 and the second baffle 602 are pressed down so that their bottoms contact the patient's body, and the two connecting blocks 802 are pushed respectively. Thus, the two connecting blocks 802 are limited by the four second springs 801 pushing the two toothed plates 804, thereby limiting the first baffle 601 and the second baffle 602. The first baffle 601 and the second baffle 602 can be used to prevent the patient from turning over.

[0060] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0061] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A clinical procedure isolation device comprising a support frame (1), characterised in that: A support assembly (2) is fixedly installed on the top of the support frame (1), a bed board assembly (5) is movably installed on the top of the support assembly (2), a fixing assembly (3) is fixedly installed on one side of the support assembly (2), a guide assembly (4) is movably installed inside the fixing assembly (3), a second protective plate (10) is fixedly installed on the other side of the support assembly (2), a snap-fit ​​assembly (8) is movably installed on one side of the guide assembly (4) and the second protective plate (10), a blocking assembly (6) is hinged on one side of one of the snap-fit ​​assembly (8), and a drive assembly (7) is fixedly installed on the bottom of the bed board assembly (5); the support assembly (2) includes a support plate (201) fixedly installed on the top of the support frame (1), two first guide rails (202) are provided inside the support plate (201), two racks (204) are fixedly installed on the front and rear sides of the two first guide rails (202), and second guide rails (203) are fixedly installed on the bottom sides of the two first guide rails (202); The drive assembly (7) includes a dual-axis motor (701) fixedly installed at the bottom of the second bed board (502). A first transmission rod (702) is fixedly installed at the output end of the dual-axis motor (701). Four transmission gears (703) that mesh with the four racks (204) are fixedly installed on both sides of the first transmission rod (702). A second transmission rod (705) is movably installed at one end of the bottom of the second bed board (502). Four sliding blocks (704) are fixedly installed at the front and rear ends of the second transmission rod (705). The bottoms of the four sliding blocks (704) are movably engaged with the outside of the four second guide rails (203). The guiding component (4) includes a first protective plate (401) movably installed outside the fixed component (3). Two protective pads (402) and four third guide rails (403) are fixedly installed at the front and rear ends of one side of the first protective plate (401). The four third guide rails (403) are perpendicular to the four second guide rails (203), and the four third guide rails (403) are of the same specifications as the four second guide rails (203).

2. The clinical procedure isolation device of claim 1, wherein: The bed board assembly (5) includes a second bed board (502) movably mounted on the top of the support plate (201). The first bed board (501) is hinged to one side of the second bed board (502). A sponge pad (503) is fixedly mounted on the top of the first bed board (501) and the second bed board (502). The combined side length of the first bed board (501) and the second bed board (502) is the same as the side length of the inner wall of the support plate (201).

3. The clinical surgical isolation device according to claim 2, characterized in that: The fixing component (3) includes a receiving plate (301) fixedly installed on one side of the support plate (201), a support column (302) fixedly installed on the top of the receiving plate (301), a snap-fit ​​plate (304) hinged to the other side of the first protective plate (401), and a first spring (303) fixedly installed on the side of the snap-fit ​​plate (304).

4. The clinical surgical isolation device according to claim 3, characterized in that: The first protective plate (401) has a first rectangular hole at its lower end, and the receiving plate (301) has a second rectangular hole in its middle. The support column (302) is perpendicular to the middle of the second rectangular hole. The first rectangular hole passes through the support column (302) and the second rectangular hole. The sum of the thicknesses of the first protective plate (401) and the receiving plate (301) is the same as the bottom thickness of the support plate (201) in the support assembly (2). One end of the first spring (303) is fixedly connected to one side of the snap-fit ​​plate (304), and the other side of the snap-fit ​​plate (304) is fixedly connected to the other side of the first protective plate (401).

5. The clinical surgical isolation device according to claim 4, characterized in that: The snap-fit ​​assembly (8) includes a toothed plate (804) movably installed inside the first protective plate (401). A second spring (801) is fixedly installed at the upper and lower ends of one side of the toothed plate (804). A connecting block (802) is movably snapped into the interior of the first protective plate (401) on the other side of the toothed plate (804). A push plate (803) is fixedly installed in the middle of the other side of the toothed plate (804). The snap-fit ​​assembly (8) is movably installed on one side of the guide assembly (4) and the second protective plate (10).

6. The clinical surgical isolation device according to claim 5, characterized in that: Both the toothed plate (804) and the connecting block (802) are provided with interlocking teeth, and the connecting block (802) slides downward on one side of the toothed plate (804) to fix the position of (802).

7. The clinical surgical isolation device according to claim 6, characterized in that: The blocking assembly (6) includes a second baffle (602) hinged to one side of the connecting block (802), a first baffle (601) movably sleeved on one side of the second baffle (602), a connecting plate (603) fixedly installed on one side of the first baffle (601), a stabilizing column (604) fixedly installed on the top of the connecting block (802) at the right end, a fixing shaft (605) fixedly installed in the middle of the stabilizing column (604), a snap-fit ​​block (606) movably sleeved on the outside of the fixing shaft (605), a circular hole opened in the middle of the connecting plate (603), the inner diameter of the circular hole is greater than the outer diameter of the stabilizing column (604), the outer diameter of the snap-fit ​​block (606) is less than the inner diameter of the circular hole, the contracted length of the first baffle (601) and the second baffle (602) is less than the height of the first protective plate (401), and the first baffle (601) and the second baffle (602) are combined in an arch shape.

8. A method of using the clinical surgical isolation device according to claim 7, characterized in that: Includes the following steps, S1. By pulling one end of the first baffle (601) upward, the length of the first baffle (601) and the second baffle (602) is shortened, and the first protective plate (401) is pulled upward. The first protective plate (401) rotates around the support column (302) as the central axis, so that it is in a horizontal state and contacts one side of the support plate (201), and maintains a plane with the bottom of the support plate (201). At the same time, one side of the four third guide rails (403) contacts one side of the four second guide rails (203) respectively. S2. By pushing one end of (602) upward, since the contraction length of the first baffle (601) and the second baffle (602) is less than the height of the first protective plate (401), the first baffle (601) and the second baffle (602) are located on the other side of the first protective plate (401); S3. Start the dual-axis motor (701) to drive the first transmission rod (702) to rotate, which in turn drives the four transmission gears (703) to rotate. Guided by the four racks (204), the first bed board (501) and the second bed board (502) are pushed to one side. During the movement of the second bed board (502), the second transmission rod (705) and the four sliding blocks (704) are driven. The four sliding blocks (704) slide outside the four second guide rails (203). During the sliding process, the four sliding blocks (704) are disengaged from the outside of the four second guide rails (203). Since the four third guide rails (403) are the same size and shape as the four second guide rails (203) and maintain a plane, the four sliding blocks (704) are respectively engaged outside the four third guide rails (403) during the sliding process. The stability of the movement of the first bed board (501) and the second bed board (502) is improved by the first protective plate (401) and the four third guide rails (403). S4. The first bed board (501) and the second bed board (502) are supported by the second baffle (602) and the first baffle (601). When the second bed board (502) moves to the left end of the support plate (201), the bottom of the first bed board (501) contacts the inclined side of the second baffle (602), so that the first bed board (501) is tilted. At the same time, the sponge pad (503) follows the first bed board (501) and is tilted. At this time, the patient can be moved to the top of the sponge pad (503), which makes it easier to move the postoperative patient and reduces the pulling force of medical staff. S5. At this time, the dual-axis motor (701) rotates in the opposite direction, pulling the second bed board (502), the first bed board (501), the sponge pad (503) and the patient on the top to move in the opposite direction. The first bed board (501), the second bed board (502) and the patient are supported by the two first guide rails (202). The second baffle (602) and the first protective plate (401) are rotated upward. The first protective plate (401) is in a vertical state and is stabilized by the second rectangular hole. S6. Then, by pulling one end of the first baffle (601), the length of the first baffle (601) and the second baffle (602) gradually increases. At the same time, the circular hole of the connecting plate (603) passes through the snap-fit ​​block (606) and the stabilizing column (604) for fixation. Press the first baffle (601) and the second baffle (602) down so that their bottoms come into contact with the patient's body, thereby limiting the first baffle (601) and the second baffle (602). The first baffle (601) and the second baffle (602) can prevent the patient from turning over.

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